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  • Title: Encephalization in tropical teleost fishes and comparison with their mode of life.
    Author: Bauchot R, Randall JE, Ridet JM, Bauchot ML.
    Journal: J Hirnforsch; 1989; 30(6):645-69. PubMed ID: 2628485.
    Abstract:
    The brains were dissected from a total of 1225 fishes representing 737 species, 310 genera and 113 families of tropical and subtropical teleosts. Each fish was weighed before brain dissection, and each brain weighed after its removal. The encephalization coefficient k was determined for each fish from a quadratic formula; to conveniently compare brain size of one species with that of another, we used an encephalization index so that an encephalization index of 100 is the average for all the species investigated. The encephalization indices for the families of fishes studied varied from 7 for the Moringuidae to 233 for the Coryphaenidae. There is no strong correlation in relative brain size with phylogenetic position. Although there is a general trend for the more highly evolved fishes to have larger brains, this is partially obscured by some high values in certain primitive groups and low ones in the more advanced. Elongate fishes have lower encephalization indices in general. This may in part be related to low phylogenetic position of most elongate species (anguilliform fishes, for example), in part to the greater relative body weight due to the longer vertebral column (and usually more numerous fin rays as as well), and to their usual mode of swimming by lateral undulations of the body (the most primitive type of aquatic locomotion--one in which the spinal cord plays a major role). No difference could be noted in the encephalization indices of herbivorous families of fishes compared to carnivorous ones. Within a genus, among medium to large-size fishes, those species of larger size tend to have lower encephalization indices. This may be related to larger fishes having less to fear of predators. Fishes which in some passive way avoid predation have low indices in general. This is particularly true of benthic species which conceal themselves by flattened form, fleshy protuberances or protective coloration, or which bury in the sediment or take refuge in burrows. Also correlated with low indices is some form of predator deterence such as production of skin toxins, presence of venomous spines or ability to enlarge the body by inflation. Fishes which have more than a single sense highly developed exhibit a larger relative brain size than those with only one well developed sense. Fishes which live in a complex community of high species diversity, such as a coral reef, have higher indices, in general, than those which dwell on mud and sand flat. Pelagic fishes, such as scombrids and carangids, are among those with the highest indices.(ABSTRACT TRUNCATED AT 400 WORDS)
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